Biological evaluation of molecules of the azaBINOL class as antiviral agents: Inhibition of HIV-1 RNase H activity by 7-isopropoxy-8-(naphth-1-yl) quinoline

Overacker Ross D.; Banerjee Somdev; Neuhaus George F.Sephton Selena MilicevicHerrmann AlexanderStrother James A.Brack-Werner RuthBlakemore Paul R.Loesgen Sandra

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Biological evaluation of molecules of the azaBINOL class as antiviral agents: Inhibition of HIV-1 RNase H activity by 7-isopropoxy-8-(naphth-1-yl) quinoline

机译：Biological evaluation of molecules of the azaBINOL class as antiviral agents: Inhibition of HIV-1 RNase H activity by 7-isopropoxy-8-(naphth-1-yl) quinoline

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Inspired by bioactive biaryl-containing natural products found in plants and the marine environment, a series of synthetic compounds belonging to the azaBINOL chiral ligand family was evaluated for antiviral activity against HIV-1. Testing of 39 unique azaBINOLs and two BINOLs in a single-round infectivity assay resulted in the identification of three promising antiviral compounds, including 7-isopropoxy-8-(naphth-1-yl) quinoline (azaBINOL B#24), which exhibited low-micromolar activity without associated cytotoxicity. The active compounds and several close structural analogues were further tested against three different HIV-1 envelope pseudotyped viruses as well as in a full-virus replication system (EASY-HIT). The in vitro studies indicated that azaBINOL B#24 acts on early stages of viral replication before viral assembly and budding. Next we explored B#24's activity against HIV-1 reverse transcriptase (RT) and individually tested for polymerase and RNase H activity. The azaBINOL B#24 inhibits RNase H activity and binds directly to the HIV-1 RT enzyme. Additionally, we observe additive inhibitory activity against pseudotyped viruses when B#24 is dosed in competition with the clinically used non-nucleoside reverse transcriptase inhibitor (NNRTI) efavirenz. When tested against a multidrug resistant HIV-1 isolate with drug resistance associated mutations in regions encoding for HIV-1 RT and protease, B#24 only exhibits a 5.1-fold net decrease in IC50 value, while efavirenz' activity decreases by 7.6-fold. These results indicate that azaBINOL B#24 is a potentially viable, novel lead for the development of new HIV-1 RNase H inhibitors. Furthermore, this study demonstrates that the survey of libraries of synthetic compounds, designed purely with the goal of facilitating chemical synthesis in mind, may yield unexpected and selective drug leads for the development of new antiviral agents.

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《Bioorganic and medicinal chemistry》 |2019年第16期|3595-3604|共10页
作者
Overacker Ross D.; Banerjee Somdev; Neuhaus George F.Sephton Selena MilicevicHerrmann AlexanderStrother James A.Brack-Werner RuthBlakemore Paul R.Loesgen Sandra;
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Oregon State Univ, Dept Chem, Corvallis, OR 97331 USA;

Helmholtz Zentrum Munchen, German Res Ctr Environm Hlth, Inst Virol, Ingolstadter Landstr 1, D;

Oregon State Univ, Dept Integrat Biol, Corvallis, OR 97331 USA;

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正文语种英语
中图分类药学;
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azaBINOL; HIV-1 inhibition; HIV reverse transcriptase; RNase H;

Biological evaluation of molecules of the azaBINOL class as antiviral agents: Inhibition of HIV-1 RNase H activity by 7-isopropoxy-8-(naphth-1-yl) quinoline

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